Open AccessDeep‐slab fluids fuel extremophilic Archaea on a Mariana forearc serpentinite mud volcano: Ocean Drilling Program Leg 195
Author(s) -
Mottl Michael J.,
Komor Stephen C.,
Fryer Patricia,
Moyer Craig L.
Publication year - 2003
Publication title -
geochemistry, geophysics, geosystems
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.928
H-Index - 136
ISSN - 1525-2027
DOI - 10.1029/2003gc000588
Subject(s) - geology , forearc , mud volcano , geochemistry , seamount , cold seep , seafloor spreading , chemosynthesis , alkalinity , mantle wedge , oceanography , methane , subduction , hydrothermal vent , paleontology , hydrothermal circulation , chemistry , organic chemistry , tectonics
As the Pacific plate subducts beneath the Mariana forearc it releases water that hydrates the overlying mantle wedge, converting it to serpentinite that protrudes to form mud volcanoes at the seafloor. Excess H 2 O ascends through these mud volcanoes and exits as cold springs at their summits. The composition of this deep‐slab derived water has been determined by drilling on two of these seamounts. It has a pH of 12.5 and, relative to seawater, is enriched in sulfate, alkalinity, Na/Cl, K, Rb, B, light hydrocarbons, ammonia, 18 O, and deuterium, and depleted in chloride, Mg, Ca, Sr, Li, Si, phosphate, and 87 Sr. Within the upper 20 m below seafloor at South Chamorro Seamount a microbial community operating at pH 12.5, made up overwhelmingly of Archaea , is oxidizing methane from the ascending fluid to carbonate ion and organic carbon, while reducing sulfate to bisulfide and probably dissolved nitrogen to ammonia.